Reduced Oxytocin Release from the Neural Lobe of Lactating Rats is Associated with Reduced Pituitary Content and does not Reflect Reduced Excitability of Oxytocin Neurons.

Abstract Lactating rats show reduced oxytocin release compared with virgin female rats in response to a variety of stimuli, including stress and osmotic stimulation. We sought to establish whether this is a consequence of a reduced response in the oxytocin cells, or of a change in stimulus-secretion coupling at the level of the neurosecretory terminals in the neural lobe. Blood sampling experiments in anaesthetized rats showed that systemic administration of cholecystokinin resulted in significantly less oxytocin release in lactating rats than in virgin female rats. Electrophysiological recordings of single cells in the supraoptic nucleus, however, showed no difference in the responsiveness of oxytocin cells to this stimulus. Oxytocin release evoked by electrical stimulation or by depolarization with high potassium solutions was lower in isolated neural lobes from lactating rats than in glands from non-lactating rats, whereas evoked vasopressin release was similar in the two groups. The lactating rat neural lobes had a reduced oxytocin content: to study the consequences of depletion we compared hormone release evoked by electrical stimulation in vitro in neural lobes from normal male rats, and from male rats given 2% NaCI to drink for 2 or 4 days. Saline drinking resulted in a reduction in gland content of both oxytocin and vasopressin, and the evoked release of both hormones was also significantly reduced when expressed as a percentage of the gland content, as was also seen for oxytocin release for glands from lactating rats. Finally, measurement of the extracellular potassium response to stimulation of the isolated neural lobe as an index of the excitability of neural lobe neurosecretory axons was unchanged in lactating rats compared with virgin female rats. Together, the data indicate that reduced oxytocin release observed in lactating rats is a simple consequence of reduced oxytocin content in the neural lobe rather than of a reduced excitability of the oxytocin neurons.